CN104110808A - Air conditioner and air guide device thereof - Google Patents

Abstract

The invention provides an air guide device of an air conditioner. The air guide device comprises flexible slats arranged in parallel, a connecting bar and a drive mechanism. Each flexible blade has a first corner and a second corner; the first corner is fixedly connected with the windward side of an air outlet; the second corner is rotatably connected to the connecting bar; a rotation axis is formed between the second corner and the connecting bar. Each flexible slat has a first area, a second area and a third area; at least part of the third area is thinner than the second area. Flexural deformation of the flexible slats includes flexural deformation around a first axial direction and flexural deformation around a second axial direction. Besides swinging left or right, the flexible slats turn down or up; the flexible slats can also bend in two dimensions; pressure loss is reduced, air volume and air speed are guaranteed, air supply is effective, and comfort of supplied air is greatly improved. The invention further provides the air conditioner comprising the air guide device.

Description

Air-conditioner and air ducting thereof

Technical field

The invention belongs to air-conditioning technical field, relate in particular to a kind of air-conditioner and air ducting thereof.

Background technology

Please refer to Fig. 1 to Fig. 3, existing domestic air conditioning indoor set air ducting 200 is main by upper wind deflector 201, lower wind deflector 202, rigid louver 203 and drive the drive unit (not shown) that both move to form, by upper wind deflector 201 and lower wind deflector 202 swing up and down and the side-to-side movement of rigid louver 203 realizes the air-supply of diverse location.When user need to air-conditioner 207 blow to the air supply position 204(of the both sides of air-conditioner installation site as shown in Figure 1) time, when refrigeration, must control upper and lower wind deflector 201,202 points to lower position and controls blinds 203 and move to Far Left or farthest right position, now, the wind being blown out by air conditioner wind outlet 205 first stops change wind direction to the left or to the right through rigid louver 203, pass through again the guiding of wind deflector 201, form to left down or bottom-right air-flow, along lower wind deflector 202, blow out; When heating, must control upper and lower wind deflector 201,202 sensing uppermost positions and control blinds 203 and move to Far Left or farthest right position, now, the wind being blown out by air conditioner wind outlet 205 first stops change wind direction to the left or to the right through rigid louver 203, pass through again the guiding of lower wind deflector 202, form to left down or bottom-right air-flow, along upper wind deflector 201, blow out.

No matter be freeze or heat, the wind being blown out by air outlet 205 stops there is crushing twice through the secondary of rigid louver 203 and wind deflector 201,202, and while being sent to desired location, air quantity and wind speed are weakened greatly, air-supply effect is had a greatly reduced quality, and it is nice and cool/warm that user is difficult to experience.Therefore, the user who is sitting in air-conditioner below or side is without access to comfortable that air-conditioner brings, and can only avoid being sitting in the region that these air-conditionings are difficult to send to as far as possible, greatly reduces the comfortableness of air-conditioning.

Summary of the invention

The object of the embodiment of the present invention is to provide a kind of air-conditioner air ducting, twice crushing that the cooperation that is intended to solve the rigid louver that exists in prior art and upper and lower wind deflector realizes that lower left/lower right or upper left side/top-right air-supply bring and the problem of lower left/lower right or upper left side/top-right air-supply comfortableness deficiency.

The embodiment of the present invention is to realize like this, a kind of air-conditioner air ducting, in order to be installed on the air outlet place of air-conditioner, it has inlet air side and air side, and described air-conditioner air ducting comprises parallel some flexible blinds, connecting rod of arranging and the driving mechanism that drives described connecting rod to move left and right, each flexible blinds has first jiao of end and the second jiao end relative with described first jiao of end, described first jiao of end of each flexible blinds is fixedly connected on the windward side of described air outlet, and described second jiao of end of each flexible blinds is rotationally connected with on described connecting rod, between described second jiao of end of each flexible blinds and described connecting rod, be formed with pivot center, each flexible blinds has between first jiao of end and second jiao of end and the first area of dividing in the first axle direction parallel with described pivot center, with first jiao of end second area corresponding and that divide in first axle direction and the 3rd region corresponding with second jiao of end and that divide in first axle direction, described the 3rd region has at least a part of region to be thinner than described second area, second jiao of end of each flexible blinds rotated and makes this flexibility blinds produce flexural deformation with respect to described first jiao of end under the drive of described connecting rod, the flexural deformation that each flexible blinds produces comprises that this flexibility blinds is around the flexural deformation of described first axle direction and this flexibility blinds around become the flexural deformation of the second axis direction of angle with described first axle direction.

Further, the described first area of each flexible blinds has at least a part of region to be thinner than described second area.

Further, the angle of described the second axis direction and described first axle direction is for being greater than 0 degree and being less than or equal to 90 degree.Preferably, the angle of described the second axis direction and described first axle direction is for being more than or equal to 20 degree and being less than or equal to 60 degree.

Further, on two diagonally opposing corners in this flexibility blinds of first of each flexible blinds jiao of end and second jiao of end or be in together on two jiaos of the same side of this flexibility blinds.

Further, each flexible blinds has the rear portion near the anterior and close described air side of described inlet air side, and the front portion of each flexible blinds has the region area less than Background Region area.

Further, described driving mechanism comprises another connecting rod and motor, and the first end of described another connecting rod is rotationally connected with an end of described connecting rod, and second end relative with described first end is fixedly connected on the output shaft of described motor.

Further, described air outlet place is provided with air channel inwall, and described first jiao of end of each flexible blinds is fixedly connected on the inwall of described air channel.Particularly, described air channel inwall is that integrated or described air channel inwall is fixedly connected with described first jiao of end of described flexible blinds as a separate part with described first jiao of end of described flexible blinds.Or described air-conditioner air ducting also comprises the wind deflector that is arranged at described air outlet place, described first jiao of end of each flexible blinds is fixedly connected on described wind deflector.Particularly, described wind deflector is that integrated or described wind deflector is connected with described first jiao of end of described flexible blinds as a separate part with described first jiao of end of described flexible blinds.

Another object of the embodiment of the present invention is to provide a kind of air-conditioner, and it comprises shell, is arranged at heat exchanger and blower fan in described shell, and described air outlet is opened on described shell, it is characterized in that: described air-conditioner also comprises above-mentioned air-conditioner air ducting.

When connecting rod drives second jiao of end of flexible blinds to rotate with respect to first jiao of end, flexible blinds can produce around the flexural deformation of described first axle direction, because described the 3rd region has at least a part of region to be thinner than described second area, becoming on the second axis direction of angle with described first axle direction, this flexibility blinds also can carry out flexural deformation around the second axis direction, thus, flexible blinds is except in swing process to the left or to the right, also be accompanied by torsion downward or upward, flexible blinds can be realized the bending of two dimensions, therefore, flexible blinds under can directly wind being sent to the rightest or under the most left and stopping without the upper wind deflector of air-conditioner, be reduced by least windage loss one time, even if make user also can experience nice and cool in the bottom of the left and right sides of air-conditioner, or flexible blinds can directly be sent to wind and goes up the rightest most or go up most the most left and stopping without the lower wind deflector of air-conditioner, be reduced by least windage loss one time, even if make user also can experience warm in the bottom of the left and right sides of air-conditioner, thus, air-conditioner air ducting of the present invention and the air-conditioner of applying this air-conditioner air ducting reduce crushing when air-supply, air quantity and wind speed are guaranteed, air-supply effect is good, greatly improved air-supply comfortableness.

Accompanying drawing explanation

Fig. 1 shows the region to be blown of the left and right inferior horn of the air-conditioner that prior art provides.

Fig. 2 is the structural representation of the air-conditioner that provides of prior art.

Fig. 3 is the rigid louver of air-conditioner of Fig. 2 schematic diagram when wind-guiding.

Fig. 4 is the three-dimensional assembly diagram of the air-conditioner air ducting that provides of the embodiment of the present invention.

Fig. 5 is the three-dimensional exploded view of the air-conditioner air ducting of Fig. 4.

Fig. 6 is the partial enlarged drawing of Fig. 5.

Schematic diagram when Fig. 7 shows the air-conditioner air ducting wind-guiding of Fig. 4.

Fig. 8 is the front view of the first version of flexible blinds of the air-conditioner air ducting of Fig. 4, and wherein dash area shows thinner region.

Fig. 9 is the stereogram of the flexible blinds of Fig. 8.

Figure 10 shows the stereogram of the second version of flexible blinds of the air-conditioner air ducting of Fig. 4.

Figure 11 is the front view of the flexible blinds of Figure 10, and wherein dash area shows thinner region.

Figure 12 shows the stereogram of the third version of flexible blinds of the air-conditioner air ducting of Fig. 4.

Figure 13 is the front view of the flexible blinds of Figure 12, and wherein dash area shows thinner region.

Figure 14 shows the stereogram of the 4th kind of version of flexible blinds of the air-conditioner air ducting of Fig. 4.

Figure 15 shows the exploded view of flexible blinds and fixed head, the flexible blinds of the air-conditioner air ducting of the replaceable Fig. 4 of flexible blinds shown in it.

Figure 16 shows the air conditioner structure figure of the above-mentioned air-conditioner air ducting of application.

The specific embodiment

In order to make object of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Refer to Fig. 4 to Fig. 7, the air-conditioner air ducting 100 that the embodiment of the present invention provides is in order to be installed on the air outlet (not shown) place of air-conditioner, and it has inlet air side 101 and air side 102.

Described air-conditioner air ducting 100 comprises parallel some flexible blinds 10, connecting rod 20 of arranging and the driving mechanism 30 that drives described connecting rod 20 to move left and right.Each flexible blinds 10 has first jiao of end 11 and the second jiao end 12 relative with described first jiao of end 11.Described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the windward side of described air outlet, and described second jiao of end 12 of each flexible blinds 10 is rotationally connected with on described connecting rod 20.Between described second jiao of end 12 of each flexible blinds 10 and described connecting rod 20, be formed with pivot center 17.It is corresponding between described first jiao of end 11 and described second jiao of end 12 and in the upper first area 60 of dividing of the first axle direction (X-axis) parallel with described pivot center 17, with described first jiao of end 11 and at the upper second area 61 of dividing of first axle direction (X-axis) and corresponding and in upper the 3rd region 62 of division of first axle direction (X-axis) with described second jiao of end 12 that each flexible blinds 10 has.Described the 3rd region 62 has at least a part of region to be thinner than described second area 61.

Please refer to Fig. 8 and Fig. 9, described second jiao of end 12 of each flexible blinds 10 rotated with respect to described first jiao of end 11 and made this flexibility blinds 10 produce flexural deformations under the drive of described connecting rod 20, and the flexural deformation that each flexible blinds 10 produces comprises that this flexibility blinds 10 is around the flexural deformation of described first axle direction (X-axis) and this flexibility blinds 10 around become the flexural deformation of second axis direction (Y-axis) of angle with described first axle direction (X-axis).

When connecting rod 20 drives second jiao of end 12 of flexible blinds 10 to rotate with respect to first jiao of end 11, flexible blinds 10 can produce the flexural deformation around described first axle direction, because having a part of region at least, described the 3rd region 62 is thinner than described second area 61, becoming on the second axis direction of angle with described first axle direction, this flexibility blinds 10 also can carry out flexural deformation around the second axis direction, thus, flexible blinds 10 is except in swing process to the left or to the right, also be accompanied by torsion downward or upward, flexible blinds 10 can be realized the bending of two dimensions, therefore, flexible blinds 10 under can directly wind being sent to the rightest or under the most left and stopping without the upper wind deflector of air-conditioner, be reduced by least windage loss one time, even if make user also can experience nice and cool in the bottom of the left and right sides of air-conditioner, or flexible blinds 10 can directly be sent to wind and goes up the rightest most or go up most the most left and stopping without the lower wind deflector of air-conditioner, be reduced by least windage loss one time, even if make user also can experience warm in the bottom of the left and right sides of air-conditioner, thus, air-conditioner air ducting 100 of the present invention and the air-conditioner of applying this air-conditioner air ducting 100 reduce crushing when air-supply, air quantity and wind speed are guaranteed, air-supply effect is good, greatly improved air-supply comfortableness.

In order to realize the torsion of flexible blinds 10, the second axis direction must become angle with first axle direction, therefore, the angle of described the second axis direction and described first axle direction can not be 0 degree, understandably, described the second axis direction becomes 90 degree can realize equally flexible blinds 10 torsions with the angle of described first axle direction, limit thus the angle of described the second axis direction and described first axle direction for being greater than 0 degree and being less than or equal to 90 degree.Preferably, the angle of described the second axis direction and described first axle direction is for being more than or equal to 20 degree and being less than or equal to 60 degree, and more preferably, the angle of described the second axis direction and described first axle direction is 30 degree, 45 degree or 60 degree.On two diagonally opposing corners in this flexibility blinds 10 of first jiao of end 11 of each flexible blinds 10 and second jiao of end 12 or be in together on two jiaos of the same side of this flexibility blinds 10, all can realize the bending combination of two dimensions of flexible blinds 10, its reason is specific as follows:

Please refer to Fig. 8 to Figure 13, for first jiao of end 11 of flexible blinds 10 and second jiao of end 12 on two diagonally opposing corners in this flexibility blinds 10, because connecting rod 20 drives second jiao of end 12 when rotate first jiao of end 11, 20 pairs of second jiao of ends 12 of connecting rod apply active force, the flexural deformation of flexible blinds 10 in first axle direction (X-axis) must exist, simultaneously, described the 3rd region 62 of flexible blinds 10 has at least a part of region to be thinner than described second area 61, make the 3rd region 62 of flexible blinds 10 softer than second area 61, can guiding flexural deformation move towards the 3rd region 62, thereby produce the flexural deformation on the second axis direction (Y-axis),

Please refer to Figure 14, for first jiao of end 11 of flexible blinds 10 and second jiao of end 12, be in together on two jiaos of the same side of this flexibility blinds 10, because connecting rod 20 drives second jiao of end 12 when rotate first jiao of end 11, 20 pairs of second jiao of ends 12 of connecting rod apply active force, the diastrophic while at flexible blinds 10 around first axle direction (X-axis), because described the 3rd region 62 of flexible blinds 10 has at least a part of region to be thinner than described second area 61, make the 3rd region 62 of flexible blinds 10 softer than second area 61, can guiding flexural deformation move towards the 3rd region 62, thereby supervene the flexural deformation on the second axis direction (Y-axis).

For first jiao of end 11 of flexible blinds 10 and second jiao of end 12 on two diagonally opposing corners in this flexibility blinds 10, when above-mentioned air-conditioner air ducting 100 is when heating, described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the upside of described air outlet, and described second jiao of end 12 is positioned at the oblique inferior horn of described first jiao of end 11.When above-mentioned air-conditioner air ducting 100 is when freezing, described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the downside of described air outlet, and described second jiao of end 12 is positioned at the tiltedly upper angle of described first jiao of end 11.

For first jiao of end 11 of flexible blinds 10 and second jiao of end 12, be in together on two jiaos of the same side of this flexibility blinds 10, when above-mentioned air-conditioner air ducting 100 is when heating, described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the downside of described air outlet; When above-mentioned air-conditioner air ducting 100 is when freezing, described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the upside of described air outlet.

The scheme that realizes " described the 3rd region 62 has at least a part of region to be thinner than described second area 61 " has a variety of, wherein the whole region in the 3rd region 62 all forms the region that thickness is less than the thickness of second area 61, as shown in Fig. 8 to Figure 14, or a part of continuum thickness in the 3rd region 62 is less than the thickness of second area 61, or, the 3rd region 62 is arranged at intervals with some groove structures, and these groove structures form the some discrete areas that are thinner than second area 61 in the 3rd region 62.

In order to make flexible blinds 10 be more prone to flexural deformation under the drive of connecting rod 20, the described first area 60 of each flexible blinds 10 has at least a part of region to be thinner than described second area 61, in the slim design of compliance blinds 10, can there is following several mode:

The first, please refer to Fig. 8 and Fig. 9, the Zone Full of the described first area 60 of each flexible blinds 10 is thinner than described second area 61, and first area 60 is parallel to X-axis with the line of demarcation of second area 61.

The second, please refer to Figure 10 and Figure 11, the Zone Full of the described first area 60 of each flexible blinds 10 is thinner than described second area 61, and this first area 60 is the main region that flexible blinds 10 contacts with air-flow.The edge of this first area 60 is oblique lines.

Three, please refer to Figure 12 and Figure 13, on the basis of first kind of way, flexible blinds 10 is provided with a thicker vertical bar 18 along X-direction, make to form in the described first area 60 of flexible blinds 10 two regions that are thinner than described second area 61, understandably, the described first area 60 of flexible blinds 10 can form the thinner region of several dispersions.

The flexible blinds 10 of above-mentioned three kinds of modes is due to the different design in the region of thickness, make flexible blinds 10 obtain different curved shapes, also different to the guiding of air-flow, in the process of design, can to the guiding of air-flow, carry out quantitatively and qualitative analysis by this kind of mode, meanwhile, by this kind of mode, be convenient to designer's design directly perceived.The curved shape of flexible blinds 10 also can be controlled, and is beneficial to design.

In above-mentioned various flexible blinds 10, each flexible blinds 10 has the rear portion 16 near the front portion 19 of described inlet air side 101 and close described air side 102, the front portion 19 of each flexible blinds 10 has than the little region area of rear portion 16 region areas, so that air-flow more easily, more successfully enters flexible blinds 10.Particularly, unfilled corner setting is carried out in the front portion 19 of each flexible blinds 10, and makes anterior 19 region area be less than the region area at rear portion 16.

Please again consult Fig. 5 and Fig. 6, described driving mechanism 30 comprises another connecting rod 31 and motor 32.The first end 33 of described another connecting rod 31 is rotationally connected with an end 21 of described connecting rod 20.Second end 34 relative with described first end 33 is fixedly connected on the output shaft 35 of described motor 32.

The first end 33 of described another connecting rod 31 is provided with between two elastic card 36, two elastic cards 36 and is provided with slit 37 towards the end 21 of described connecting rod 20.The end 21 of described connecting rod 20 offers hole clipping 22, described hole clipping 22 is drawn close and passed to described two elastic cards 36, the end of two elastic cards 36 is stuck in the end 21 of described connecting rod 20, by making elastic card 36 and coordinating of hole clipping 22 first end 33 of another connecting rod 31 be rotationally connected with the end 21 of connecting rod 20.

The second end 34 of another connecting rod 31 offers fixing hole 38, and the output shaft 35 of described motor 32 is fixed in this fixing hole 38.Preferably, fixing hole 38 is square, and the cross section of the output shaft 35 of motor 32 is square, and when the output shaft 35 of motor 32 coordinates with fixing hole 38, the output shaft 35 of motor 32 rotates, and the second end 34 of another connecting rod 31 can rotate.

Second jiao of end 12 of each flexible blinds 10 is provided with articulated section 13, offers pivoted hole 23 in respective link 20, and the articulated section 13 of each flexible blinds 10 is articulated in the pivoted hole 23 on connecting rod 20, to realize rotation.Particularly, described articulated section 13 comprises neck 14 and the head 15 larger than the diameter of described neck 14, and described pivoted hole 23 comprises rectangular waist hole 24 and be positioned at the circular hole 25 at these 24 middle parts, waist hole, and circular hole 25 is connected with waist hole 24.In installation process, the head 15 of articulated section 13 is clamp-oned in circular hole 25, makes circular hole 25 and 24 expansions of waist hole, then, head 15 is through circular hole 25, and now, circular hole 25 restores to the original state with waist hole 24, neck 14 is placed in circular hole 25, and so, second jiao of end 12 is rotationally connected with on connecting rod 20.

In the present embodiment, described air outlet place is provided with air channel inwall (not shown), and described first jiao of end 11 of each flexible blinds 10 is fixedly connected on the inwall of described air channel.Particularly, described air channel inwall is that integrated or described air channel inwall is fixedly connected with described first jiao of end 11 of described flexible blinds 10 as a separate part with described first jiao of end 11 of described flexible blinds 10.In other embodiments, described air-conditioner air ducting 100 also comprises the wind deflector (not shown) that is arranged at described air outlet place, and described first jiao of end 11 of each flexible blinds 10 is fixedly connected on described wind deflector.Particularly, described wind deflector is that integrated or described wind deflector is connected with described first jiao of end 11 of described flexible blinds 10 as a separate part with described first jiao of end 11 of described flexible blinds 10.

Please refer to Fig. 8 to Figure 13, for wind deflector or air channel inwall be one-body molded, in order to increase the bonding strength of wind deflector or air channel inwall and flexible blinds 10, in the relative both sides of first jiao of end 11 of flexible blinds 10, be provided with two braces 40.For wind deflector or air channel inwall, as separate part, be fixedly connected with flexible blinds 10, described brace 40 also facilitates being fixedly connected with of first jiao of end 11.Please refer to Figure 14 and Figure 15, in order to realize being connected of first jiao of end 11 and air outlet place, can also fixed leg 41 be set at 11 places, first jiao of end of flexible blinds 10, on wind deflector or air channel inwall, offer fixing perforation 42, fixedly realizing by fixed leg 41 in fixing perforation 42 is fixing.Fixed head 43 in Figure 15 illustrates wind deflector or air channel inwall.

Please again consult Figure 15, fixing and only on second jiao of end 12, arrange on the basis of articulated section 13 in first jiao of end 11 of the present embodiment, can an articulated section 13 be also set in three end 44 that be positioned at flexible blinds 10 leeward sides relative with second jiao of end 12.Second jiao of end 12 of all flexible blinds 10 is rotationally connected with on connecting rod 20, simultaneously, the 3rd end 44 of all flexible blinds 10 is rotationally connected with in a third connecting rod (not shown), flexible blinds 10 is like this when freezing wind-guiding, third connecting rod is motionless, connecting rod 20 drive second jiao of end 12 of flexible blinds 10 with respect to first jiao of end 11, rotate and under realizing the most left or under the rightest wind-guiding, flexible blinds 10 is like this when heating wind-guiding, connecting rod 20 is motionless, third connecting rod drives the 3rd end 44 of flexible blinds 10 to rotate and realize and go up left or go up most wind-guiding to the right most with respect to first jiao of end 11.Flexible blinds 10 shown in Figure 15 can realize simultaneously when refrigeration under the most left or under the rightest wind-guiding and go up left or go up most wind-guiding to the right while heating most.

Refer to Figure 16, the embodiment of the present invention also provides a kind of air-conditioner 500, it comprises shell 501, is arranged at heat exchanger 502 and blower fan 503 in described shell 501, and described air outlet 504 is opened on described shell 501, and described air-conditioner 500 also comprises above-mentioned air-conditioner air ducting 100.By utilizing above-mentioned air-conditioner air ducting 100, can make air-conditioner 500 reach needed air-supply requirement, expand left and right blowing range, and make the wind-guiding design of air-conditioner 500 more controlled, the air-supply of air-conditioner 500 is more comfortable.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any modifications of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in protection scope of the present invention.

Claims (12)

1. an air-conditioner air ducting, in order to be installed on the air outlet place of air-conditioner, it has inlet air side and air side, it is characterized in that: described air-conditioner air ducting comprises parallel some flexible blinds, connecting rod of arranging and the driving mechanism that drives described connecting rod to move left and right, each flexible blinds has first jiao of end and the second jiao end relative with described first jiao of end, described first jiao of end of each flexible blinds is fixedly connected on the windward side of described air outlet, and described second jiao of end of each flexible blinds is rotationally connected with on described connecting rod, between described second jiao of end of each flexible blinds and described connecting rod, be formed with pivot center, each flexible blinds has between described first jiao of end and described second jiao of end and the first area of dividing in the first axle direction parallel with described pivot center, with described first jiao of end second area corresponding and that divide in first axle direction and the 3rd region corresponding with described second jiao of end and that divide in first axle direction, described the 3rd region has at least a part of region to be thinner than described second area, described second jiao of end of each flexible blinds rotated and makes this flexibility blinds produce flexural deformation with respect to described first jiao of end under the drive of described connecting rod, the flexural deformation that each flexible blinds produces comprises that this flexibility blinds is around the flexural deformation of described first axle direction and this flexibility blinds around become the flexural deformation of the second axis direction of angle with described first axle direction.

2. air-conditioner air ducting as claimed in claim 1, is characterized in that: the described first area of each flexible blinds has at least a part of region to be thinner than described second area.

3. air-conditioner air ducting as claimed in claim 1, is characterized in that: the angle of described the second axis direction and described first axle direction is for being greater than 0 degree and being less than or equal to 90 degree.

4. air-conditioner air ducting as claimed in claim 3, is characterized in that: the angle of described the second axis direction and described first axle direction is for being more than or equal to 20 degree and being less than or equal to 60 degree.

5. air-conditioner air ducting as claimed in claim 1, is characterized in that: on two diagonally opposing corners in this flexibility blinds of first jiao of end of each flexible blinds and second jiao of end or be in together on two jiaos of the same side of this flexibility blinds.

6. air-conditioner air ducting as claimed in claim 1, is characterized in that: each flexible blinds has the rear portion near the anterior and close described air side of described inlet air side, and the front portion of each flexible blinds has the region area less than Background Region area.

7. the air-conditioner air ducting as described in claim 1-6 any one, it is characterized in that: described driving mechanism comprises another connecting rod and motor, the first end of described another connecting rod is rotationally connected with an end of described connecting rod, and second end relative with described first end is fixedly connected on the output shaft of described motor.

8. the air-conditioner air ducting as described in claim 1-6 any one, is characterized in that: described air outlet place is provided with air channel inwall, and described first jiao of end of each flexible blinds is fixedly connected on the inwall of described air channel.

9. air-conditioner air ducting as claimed in claim 8, is characterized in that: described air channel inwall is that integrated or described air channel inwall is fixedly connected with described first jiao of end of described flexible blinds as a separate part with described first jiao of end of described flexible blinds.

10. the air-conditioner air ducting as described in claim 1-6 any one, is characterized in that: described air-conditioner air ducting also comprises the wind deflector that is arranged at described air outlet place, and described first jiao of end of each flexible blinds is fixedly connected on described wind deflector.

11. air-conditioner air ductings as claimed in claim 10, is characterized in that: described wind deflector is that integrated or described wind deflector is connected with described first jiao of end of described flexible blinds as a separate part with described first jiao of end of described flexible blinds.

12. 1 kinds of air-conditioners, it comprises shell, is arranged at heat exchanger and blower fan in described shell, and described air outlet is opened on described shell, it is characterized in that: described air-conditioner also comprises the air-conditioner air ducting as described in claim 1-11 any one.